CN113731864A - Detection equipment capable of classifying lamps with different brightness for energy-saving lamp production - Google Patents

Abstract

The invention relates to the field of energy-saving lamp detection, in particular to a detection device for classifying lamps with different brightness for energy-saving lamp production, which comprises a bottom plate, a charging box, a slide rail frame, a special-shaped chute support frame, a driving mechanism and the like; the three charging boxes are fixedly mounted on the top surface of the bottom plate, the sliding rail frame is welded on the bottom plate, the special-shaped sliding groove support frame is fixedly mounted on the top surface of the bottom plate, and the driving mechanism is arranged on the top surface of the bottom plate. Through electricity-saving lamp bottom and touch-control board mutual contact for the touch-control board is to the circular telegram of electricity-saving lamp, makes the electricity-saving lamp shine, and the photovoltaic board absorbs the bright light and supplies power to the electro-magnet, makes the electro-magnet produce magnetic force, and the magnet frame repels mutually with the electro-magnet for a moment, and the electro-magnet can promote a magnet frame downstream, realizes carrying out the purpose that detects to the electricity-saving lamp.

Description

Detection equipment capable of classifying lamps with different brightness for energy-saving lamp production

Technical Field

The invention relates to the field of energy-saving lamp detection, in particular to detection equipment for classifying lamps with different brightness for energy-saving lamp production.

Background

The energy-saving lamp is also called a power-saving bulb, an electronic bulb, a compact fluorescent lamp and an integrated fluorescent lamp, the energy-saving lamp is lighting equipment which combines the fluorescent lamp and a ballast into a whole, and the standard performance requirement of an energy-saving lamp inspection standard product is higher than the inspection requirement of a self-ballasted fluorescent lamp for common illumination.

Before the energy-saving lamp leaves the factory, the quality of the energy-saving lamp needs to be detected, so that the product percent of pass is ensured, the conventional energy-saving lamp detection device generally needs manual operation, manual observation is needed, the energy-saving lamps with different brightness are classified, the eyes of workers are greatly injured, and the workers are easily tired.

Disclosure of Invention

The invention aims to provide detection equipment for classifying lamps with different brightness for energy-saving lamp production, which can clamp and fix energy-saving lamps, can detect the brightness of the energy-saving lamps and can classify and collect the energy-saving lamps with different brightness, so as to solve the problems that manual operation is needed, manual observation is needed, the energy-saving lamps with different brightness are classified and the eyes of workers are greatly injured in the background technology.

The technical scheme is as follows: the utility model provides an electricity-saving lamp production is with can carrying out categorised check out test set to different luminance lamps, comprising a base plate, the charging box, the slide rail frame, heterotypic spout support frame, actuating mechanism, press from both sides tight pushing down the mechanism, promote pushing down the mechanism, detection mechanism and whereabouts mechanism, bottom plate top surface fixed mounting has three charging boxes, the welding has the slide rail frame on the bottom plate, heterotypic spout support frame fixed mounting is at the bottom plate top surface, actuating mechanism sets up at the bottom plate top surface, press from both sides tight pushing down the mechanism and locate on actuating mechanism, promote pushing down on the mechanism locates heterotypic spout support frame, fixed mounting has detection mechanism on the slide rail frame, whereabouts mechanism sets up on actuating mechanism.

In addition, particularly preferably, the driving mechanism comprises a servo motor, a special-shaped rotating shaft frame, a first transmission shaft, a second transmission shaft, a missing gear, a transmission gear, a rotating disc, a torsion spring, a first overrunning clutch, a first deflector rod disc, a second overrunning clutch, a first special-shaped sliding frame, a photovoltaic panel, a long rack and a third overrunning clutch, wherein the servo motor is fixedly arranged on the top surface of the bottom plate, the special-shaped rotating shaft frame is also fixedly arranged on the top surface of the bottom plate, an output shaft of the servo motor is rotatably connected with the special-shaped rotating shaft frame, a first transmission shaft is connected to a bearing on the special-shaped rotating shaft frame in an interference fit manner, a second transmission shaft is connected to the bearing on the special-shaped rotating shaft frame in an interference fit manner, the missing gear is welded at one end of the output shaft of the servo motor, the transmission gear is fixedly connected to the first transmission shaft, the third overrunning clutch is fixedly connected to the second transmission shaft, and the third overrunning clutch is also fixedly connected to the transmission gear, the two transmission gears are meshed with the missing gear, a rotating disc is welded on a second transmission shaft, a torsion spring is connected between the rotating disc and a special-shaped rotating shaft frame, a first overrunning clutch is arranged on the second transmission shaft, a first driving lever disc is arranged at the bottom of the first overrunning clutch, a second overrunning clutch is arranged below the transmission shaft, a first driving lever disc is welded on the second overrunning clutch in the same way, a first three-different sliding frame is connected on a sliding rail frame in a sliding mode, two adjacent special-shaped sliding frames are fixedly connected with each other, a photovoltaic plate is arranged on the first special-shaped sliding frame, two adjacent photovoltaic plates are fixedly connected with each other, long racks are welded on the first special-shaped sliding frame, two adjacent long racks are fixedly connected with each other, and the long racks are meshed with one transmission gear.

In addition, particularly preferably, the clamping and pressing mechanism comprises a first wedge-shaped frame, a second wedge-shaped frame, a slotting sliding frame, a second special-shaped sliding frame, a wedge-shaped clamping block, a first reset spring, a lower pressing plate, a first limiting wedge-shaped block, a second reset spring, a third return spring and a pushing block, the top surface of the bottom plate is welded with the second wedge-shaped frame, the first wedge-shaped frame is welded on a sliding rail frame, the first special-shaped sliding frame is connected with a pair of slotting sliding frames in a sliding mode, the slotting sliding frame is connected with the second special-shaped sliding frame in a lifting mode, the second special-shaped sliding frame is connected with the wedge-shaped clamping block in a sliding mode, one wedge-shaped clamping block is in mutual contact with the first wedge-shaped frame, the other wedge-shaped clamping block is in mutual contact with the second wedge-shaped frame, the first reset spring is connected on the wedge-shaped clamping block, one end of the first reset spring is connected with the second special-shaped sliding frame, and the three wedge-shaped clamping blocks are welded with the lower pressing plate, the special-shaped sliding frame II is connected with a first limiting wedge block in a sliding mode, the first limiting wedge block is connected with a second reset spring in a connecting mode, one end of the second reset spring is fixedly connected with the second special-shaped sliding frame, the second special-shaped sliding frame II is connected with a pair of third return springs in a connecting mode, one end of each third return spring is fixedly connected with the corresponding slotting sliding frame, and the first special-shaped sliding frame is welded with the pushing block.

In addition, particularly preferably, the pushing and pressing mechanism comprises a first rotating shaft, a second rotating shaft, a touch panel, a special-shaped sliding bar frame, a second deflector rod disc, a deflector rod bar, a short shaft, a rotating gear, a chain, a short rack frame, a first homing spring, a push plate with a round bar, a third homing spring, a transmission disc, a connecting rod, a clamping rod, a second homing spring, a slotted disc and a return spring, wherein the first rotating shaft is rotatably connected to the special-shaped sliding groove support frame, the second rotating shaft is also rotatably connected to the special-shaped sliding groove support frame, the touch panel is fixedly arranged on the top surface of the bottom plate, the special-shaped sliding bar frame is welded on the special-shaped sliding groove support frame, the deflector rod discs are arranged on the second rotating shaft in a distributed manner, the second rotating shaft is welded with the second deflector rod discs, the two deflector rod discs are in mutual contact with the first deflector rod disc, the three deflector rod bars are slidably connected to the special-shaped sliding bar frame, and the deflector rod discs are in mutual contact with each other, the special-shaped chute supporting frame is rotatably connected with three short shafts, a transmission gear is also fixedly connected above the short shafts, a rotating gear is arranged below the short shafts, the first transmission shaft is also fixedly connected with the rotating gear, a chain is in transmission connection between the rotating gears, the special-shaped chute supporting frame is slidably connected with three short rack racks, a first homing spring is connected on the short rack in a coupling mode, one end of the first homing spring is connected with the special-shaped chute supporting frame, the short rack is slidably connected with a push plate with a round rod, the push plate with the round rod is connected with a third homing spring in a coupling mode, one end of the third homing spring is fixedly connected with the short rack, a transmission disc is welded at two ends of the rotating shafts, the transmission disc is rotatably connected with a connecting rod, the connecting rod is rotatably connected with a slotting disc in a rotating mode of triangular connection, a clamping rod is slidably connected on the slotting disc and clamped in a clamping groove of the rotating shaft, and a second homing spring is connected between the clamping rod and the slotting disc, a return spring is connected between the special-shaped sliding strip frame and the shifting rod.

In addition, particularly preferably, the detection mechanism comprises a special-shaped slotting support frame, a first magnet frame, a second magnet frame, a third magnet frame, a fourth reset spring, a fifth reset spring, a sixth reset spring, a slotting wedge-shaped frame, a second limiting wedge-shaped block, a seventh reset spring, an eighth reset spring and an electromagnet, the special-shaped slotting support frame is fixedly installed on the slide rail frame, the first magnet frame is connected on the special-shaped slotting support frame in a sliding manner, the second magnet frame is connected on the special-shaped slotting support frame in a sliding manner, the third magnet frame is also connected on the special-shaped slotting support frame in a sliding manner, the fourth reset spring is connected on the third magnet frame, one end of the fourth reset spring is connected with the special-shaped slotting support frame, the fifth reset spring is fixedly connected between the second magnet frame and the special-shaped slotting support frame, the sixth reset spring is connected on the first magnet frame, one end of the sixth reset spring is connected with the special-shaped slotting support frame, the special-shaped slotting wedge-shaped frame is connected with a slotting wedge-shaped frame in a sliding mode, the slotting wedge-shaped frame is connected with three limiting wedge blocks II in a sliding mode, a seventh reset spring is fixedly connected onto the limiting wedge blocks II, one end of the seventh reset spring is fixedly connected with the slotting wedge-shaped frame, two pairs of eighth reset springs are connected between the slotting wedge-shaped frame and the special-shaped slotting support frame, and the photovoltaic panel is provided with an electromagnet.

In addition, it is especially preferred that the falling mechanism comprises a slotted four-corner sliding frame, a ninth return spring and a fixed wedge frame, the slotted four-corner sliding frame is symmetrically and slidably connected to the special-shaped sliding frame I, the slotted four-corner sliding frame is slidably connected with the slotted sliding frame, a pair of ninth return springs is connected between the two corresponding slotted sliding frames, and the fixed wedge frame is symmetrically arranged on the charging box.

Compared with the prior art, the invention has the following advantages:

the wedge-shaped clamping blocks are pushed to move towards the direction far away from the slide rail frame through the wedge-shaped frame II, so that the two wedge-shaped clamping blocks move oppositely to clamp the energy-saving lamp, and meanwhile, the first limiting wedge-shaped block clamps the wedge-shaped clamping blocks, so that the two wedge-shaped clamping blocks can clamp the energy-saving lamp all the time.

The fixed wedge-shaped frame can push one slotting sliding frame and the device on the sliding frame to move towards the direction close to the sliding rail frame, and the wedge-shaped clamping blocks do not clamp the energy-saving lamp any more, so that the energy-saving lamps with different brightness fall into different charging boxes.

Through electricity-saving lamp bottom and touch-control board mutual contact for the touch-control board is to the circular telegram of electricity-saving lamp, makes the electricity-saving lamp shine, and the photovoltaic board absorbs the bright light and supplies power to the electro-magnet, makes the electro-magnet produce magnetic force, and the magnet frame repels mutually with the electro-magnet for a moment, and the electro-magnet can promote a magnet frame downstream, realizes carrying out the purpose that detects to the electricity-saving lamp.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 5 is a schematic perspective view of a portion of the clamping and depressing mechanism of the present invention.

Fig. 6 is a partially disassembled perspective view of the clamping and pressing mechanism of the present invention.

Fig. 7 is a schematic perspective view of a portion of the pushing and pressing mechanism of the present invention.

Fig. 8 is a partially disassembled perspective view of the pushing mechanism of the present invention.

Fig. 9 is a partially disassembled perspective view of the detecting mechanism of the present invention.

Fig. 10 is a partially disassembled perspective view of the drop mechanism of the present invention.

In the figure: 1. a bottom plate, 2, a charging box, 3, a slide rail frame, 4, a special-shaped chute supporting frame, 5, a driving mechanism, 51, a servo motor, 52, a special-shaped rotating shaft frame, 53, a first transmission shaft, 54, a second transmission shaft, 55, a missing gear, 56, a transmission gear, 57, a rotating disk, 58, a torsion spring, 59, a first overrunning clutch, 510, a first deflector rod disk, 511, a second overrunning clutch, 512, a first special-shaped sliding frame, 513, a photovoltaic panel, 514, a long rack, 515, a third overrunning clutch, 6, a clamping and pressing mechanism, 61, a first wedge frame, 62, a second wedge frame, 63, a slotted sliding frame, 64, a second special-shaped sliding frame, 65, a wedge clamping block, 66, a first return spring, 67, a lower pressing plate, 68, a first limiting wedge block, 69, a second return spring, 610, a third return spring, 611, a pushing block, 7, a pushing and pressing mechanism, 71 and a first rotating shaft, 72. a second rotating shaft 73, a touch control panel 74, a special-shaped sliding strip frame 75, a second deflector rod disk 76, a deflector rod 77, a short shaft 78, a rotating gear 79, a chain 710, a short rack frame 711, a first homing spring 712, a push plate with a round rod 713, a third return spring 714, a transmission disk 715, a connecting rod 716, a clamping rod 717, a second homing spring 718, a slotted disk 719, a return spring 8, a detection mechanism 81, a special-shaped slotted support frame 82, a first magnet frame 83, a second magnet frame 84, a third magnet frame 85, a fourth return spring 86, a fifth return spring 87, a sixth return spring 88, a slotted wedge frame 89, a second limit wedge block 810, a seventh return spring 811, an eighth return spring 812, an electromagnet 9, a falling mechanism 91, a slotted sliding frame 92 and a ninth return spring, 93. and fixing the wedge-shaped frame.

Detailed Description

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b): a detection device for classifying different brightness lamps for energy-saving lamp production is disclosed, as shown in figures 1-10, comprising a bottom plate 1, a charging box 2, a slide rail frame 3, a special-shaped chute support frame 4, a driving mechanism 5, a clamping pressing mechanism 6, a pushing pressing mechanism 7, a detection mechanism 8 and a falling mechanism 9, wherein the top surface of the bottom plate 1 is fixedly provided with three charging boxes 2 for placing the detected energy-saving lamps, the bottom plate 1 is welded with the slide rail frame 3, the special-shaped chute support frame 4 is fixedly arranged on the top surface of the bottom plate 1, the driving mechanism 5 is arranged on the top surface of the bottom plate 1, a press from both sides tight hold-down mechanism 6 for pressing from both sides tight with the electricity-saving lamp and locate actuating mechanism 5 on, a promotion hold-down mechanism 7 for placing the electricity-saving lamp that awaits measuring is located on heterotypic spout support frame 4, and fixed mounting has a detection mechanism 8 that is used for detecting the electricity-saving lamp on the slide rail frame 3, and whereabouts mechanism 9 sets up on actuating mechanism 5.

The driving mechanism 5 comprises a servo motor 51, a special-shaped rotating shaft frame 52, a first transmission shaft 53, a second transmission shaft 54, a missing gear 55, a transmission gear 56, a rotating disc 57, a torsion spring 58, a first overrunning clutch 59, a first deflector disc 510, a second overrunning clutch 511, a first special-shaped sliding frame 512, a photovoltaic panel 513, a long rack 514 and a third overrunning clutch 515, wherein the servo motor 51 is fixedly arranged on the top surface of the bottom plate 1, the special-shaped rotating shaft frame 52 is also fixedly arranged on the top surface of the bottom plate 1, an output shaft of the servo motor 51 is rotatably connected with the special-shaped rotating shaft frame 52, a bearing on the special-shaped rotating shaft frame 52 is connected with the first transmission shaft 53 in an interference fit manner, the bearing on the special-shaped rotating shaft frame 52 is connected with the second transmission shaft 54 in an interference fit manner, one end of the output shaft of the servo motor 51 is welded with the missing gear 55, the transmission gear 56 is fixedly connected on the first transmission shaft 53, the second transmission shaft 54 is fixedly connected with the third overrunning clutch 515, a transmission gear 56 is fixedly connected to the third overrunning clutch 515, the two transmission gears 56 are meshed with the missing gear 55, a rotating disc 57 is welded to the second transmission shaft 54, a torsion spring 58 is connected between the rotating disc 57 and the special-shaped rotating shaft frame 52, a first overrunning clutch 59 is arranged on the second transmission shaft 54 far away from the transmission gears 56, a first deflector disc 510 is arranged at the bottom of the first overrunning clutch 59 far away from the second transmission shaft 54, a second overrunning clutch 511 is arranged below the first transmission shaft 53, a first deflector disc 510 is also welded to the second overrunning clutch 511, a first three-type sliding frame 512 is connected to the sliding rail frame 3 in a sliding mode, two adjacent special-shaped sliding frames 512 are fixedly connected, photovoltaic plates 513 used for generating electricity are arranged on the first special-type sliding frame 512, two adjacent photovoltaic plates 513 are fixedly connected, long racks 514 are welded to the first special-type sliding frames 512, and two adjacent long racks 514 are fixedly connected, the long rack 514 is intermeshed with one of the transfer gears 56.

The clamping and pressing mechanism 6 comprises a first wedge-shaped frame 61, a second wedge-shaped frame 62, a slotting sliding frame 63, a second special-shaped sliding frame 64, a wedge-shaped clamping block 65, a first return spring 66, a lower pressing plate 67, a first limiting wedge-shaped block 68, a second return spring 69, a third return spring 610 and a pushing block 611, the top surface of the base plate 1 is welded with the second wedge-shaped frame 62, the first wedge-shaped frame 61 is welded on the sliding rail frame 3, the first special-shaped sliding frame 512 is connected with a pair of slotting sliding frames 63 in a sliding mode, the second special-shaped sliding frame 64 is connected with the second special-shaped sliding frame 64 in a lifting mode, the second special-shaped sliding frame 64 is connected with the wedge-shaped clamping block 65 in a sliding mode, the wedge-shaped clamping block 65 is used for clamping the energy-saving lamp, one wedge-shaped clamping block 65 is in mutual contact with the first wedge-shaped frame 61, the first wedge-shaped frame 61 is used for pushing the wedge-shaped clamping block 65 to move towards the direction close to the sliding rail frame 3, the other wedge-shaped clamping block 65 is in mutual contact with the second wedge-shaped frame 62, the second wedge-shaped frame 62 is used for pushing the wedge-shaped clamping block 65 to move towards the direction far away from the sliding rail frame 3, a first return spring 66 is connected to the wedge-shaped clamping block 65, one end of the first return spring 66 far away from the wedge-shaped clamping block 65 is connected with the second special-shaped sliding frame 64, two lower pressing plates 67 are welded to the three wedge-shaped clamping blocks 65, a first limit wedge block 68 is connected to the second special-shaped sliding frame 64 in a sliding mode, a second return spring 69 is connected to the first limit wedge block 68 in a connecting mode, one end of the second return spring 69 far away from the first limit wedge block 68 is fixedly connected with the second special-shaped sliding frame 64, a pair of third return springs 610 is connected to the second special-shaped sliding frame 64 in a connecting mode, one end of the third return spring 610 far away from the second special-shaped sliding frame 64 is fixedly connected with the slotting sliding frame 63, and the first special-shaped sliding frame 512 is welded with the pushing block 611.

The pushing and pressing mechanism 7 comprises a first rotating shaft 71, a second rotating shaft 72, a touch control plate 73, a special-shaped sliding strip frame 74, a second shifting rod disc 75, a shifting rod 76, a short shaft 77, a rotating gear 78, a chain 79, a short rack frame 710, a first homing spring 711, a push plate with a round rod 712, a third reset spring 713, a transmission disc 714, a connecting rod 715, a clamping rod 716, a second homing spring 717, a slotted disc 718 and a reset spring 719, wherein the first rotating shaft 71 is rotatably connected to the special-shaped sliding groove support frame 4, the second rotating shaft 72 is rotatably connected to the special-shaped sliding groove support frame 4 close to the first rotating shaft 71, the touch control plate 73 for detecting the energy-saving lamp is fixedly installed on the top surface of the bottom plate 1, the special-shaped sliding strip frame 74 is welded to the special-shaped sliding groove support frame 4, the second shifting rod discs 75 are distributed on the second rotating shaft 72, the second rotating shaft 71 is welded with second shifting discs 75, wherein the first shifting rod discs 75 and the first shifting rod discs 510 are in mutual contact with each other, the special-shaped sliding bar frame 74 is connected with three shifting bar bars 76 in a sliding mode, the shifting bar bars 76 are in contact with the shifting bar disc II 75, the special-shaped sliding groove support frame 4 is connected with three short shafts 77 in a rotating mode, a transmission gear 56 is also fixedly connected above the short shafts 77, a rotating gear 78 is arranged below the short shaft 77 far away from the transmission gear 56, the rotating gear 78 is also fixedly connected on a transmission shaft I53, a chain 79 is connected between the rotating gears 78 in a driving mode, the special-shaped sliding groove support frame 4 is connected with three short rack frames 710 in a sliding mode, a first homing spring 711 is connected on each short rack frame 710, one end of the first homing spring 711 far away from each short rack frame 710 is connected with the special-shaped sliding groove support frame 4, a push plate 712 with a round bar is connected on each short rack frame 710 in a sliding mode, the push plate 712 with the round bar is used for pushing the grooving sliding frame 63 and devices on the grooving sliding frame 63, a third return spring 713 is connected on the push plate 712 with the round bar, one end of the third return spring 713 far away from the push plate 712 with the round bar is fixedly connected with the short rack frame 710, one end of the second rotating shaft 72 is welded with a transmission disc 714, the transmission disc 714 is rotatably connected with a connecting rod 715, the connecting rod 715 is rotatably connected with a slotted disc 718, the slotted disc 718 is slidably connected with a clamping rod 716 in a triangular connection mode, the clamping rod 716 is clamped in a clamping groove of the first rotating shaft 71, a second return spring 717 is connected between the clamping rod 716 and the slotted disc 718, and a return spring 719 is connected between the special-shaped sliding strip frame 74 and the driving rod 76.

The detection mechanism 8 comprises a special-shaped slotted support frame 81, a first magnet frame 82, a second magnet frame 83, a third magnet frame 84, a fourth reset spring 85, a fifth reset spring 86, a sixth reset spring 87, a slotted wedge frame 88, a second limit wedge block 89, a seventh reset spring 810, an eighth reset spring 811 and an electromagnet 812, the special-shaped slotted support frame 81 is fixedly arranged on the slide rail frame 3, the first magnet frame 82 is slidably connected on the special-shaped slotted support frame 81, the first magnet frame 82 is used for blocking the slotted sliding frame 63, the second magnet frame 83 is slidably connected on the special-shaped slotted support frame 81, the third magnet frame 84 is also connected on the special-shaped slotted support frame 81, the third magnet frame 84 is used for blocking the slotted sliding frame 63, the third magnet frame 84 is connected with the fourth reset spring 85 in a coupling manner, one end of the fourth reset spring 85 far away from the third magnet frame 84 is connected with the special-shaped slotted support frame 81, a fifth reset spring 86 is fixedly connected between the magnet frame II 83 and the special-shaped slotting support frame 81, a sixth reset spring 87 is connected on the magnet frame I82, one end of the sixth reset spring 87 far away from the magnet frame I82 is connected with the special-shaped slotting support frame 81, a slotting wedge frame 88 is slidably connected on the special-shaped slotting support frame 81, a third limiting wedge block II 89 is slidably connected on the slotting wedge frame 88 and used for clamping the magnet frame I82, the magnet frame II 83 or the magnet frame III 84, a seventh reset spring 810 is fixedly connected on the limiting wedge block II 89, one end of the seventh reset spring 810 far away from the limiting wedge block II 89 is fixedly connected with the slotting wedge frame 88, two pairs of eighth reset springs 811 are connected between the slotting wedge frame 88 and the special-shaped slotting support frame 81, an electromagnet 812 is arranged on the photovoltaic panel 513 and used for pushing the magnet frame I82, the second magnet holder 83 or the third magnet holder 84 moves downward.

The falling mechanism 9 includes a slotted four-corner sliding frame 91, a ninth return spring 92 and a fixed wedge frame 93, the slotted four-corner sliding frame 91 is symmetrically and slidably connected to a first special-shaped sliding frame 512, the slotted four-corner sliding frame 91 is slidably connected to a slotted sliding frame 63, a pair of ninth return springs 92 is connected between two corresponding slotted sliding frames 63, and the fixed wedge frame 93 is symmetrically arranged on the charging box 2.

The device is arranged on an energy-saving lamp production line, a slide rail frame 3 is long, a plurality of special-shaped slide rails I512 are arranged on the slide rail frame 3, an operator places an energy-saving lamp between two wedge-shaped clamping blocks 65, the operator manually starts a servo motor 51, an output shaft of the servo motor 51 rotates to drive a missing gear 55 to rotate, the missing gear 55 is separated from one transmission gear 56, the missing gear 55 drives the other transmission gear 56 and an upper device thereof to rotate anticlockwise, a torsion spring 58 is compressed, the first overrunning clutch 59 rotates anticlockwise to not transmit power to a driving lever disc I510, the transmission gear 56 drives a long rack 514 and an upper device thereof to move towards a direction close to a touch control plate 73, the wedge-shaped clamping blocks 65 are pushed by a wedge-shaped frame I61 to move towards a direction close to the slide rail frame 3, the wedge-shaped clamping blocks 65 are pushed by a wedge-shaped frame II 62 to move towards a direction far away from the slide rail frame 3, so that the two wedge-shaped clamping blocks 65 move towards each other to clamp the energy-saving lamp, the wedge-shaped clamping block 65 can push the first limiting wedge block 68 to move upwards, the compressed second return spring 69 is reset to drive the first limiting wedge block 68 to move downwards to reset, and the first limiting wedge block 68 clamps the wedge-shaped clamping block 65.

When the gear 55 is separated from the other transmission gear 56, the gear 55 will engage with one transmission gear 56, one transmission gear 56 and the device thereon will rotate counterclockwise, at the same time, the compressed torsion spring 58 is reset to drive the rotating disc 57 and the devices thereon to rotate and reset, due to the action of the third overrunning clutch 515, the other transmission gear 56 can not rotate, one of the deflector rod discs 510 rotates to push one of the deflector rod discs 75 on the rotating shaft 72 and the device thereon to rotate, the transmission disc 714 drives the slotted disc 718 and the device thereon to rotate through the connecting rod 715, at this time, due to the action of the second overrunning clutch 511, the other deflector rod disc 510 blocks the deflector rod disc 75 on the rotating shaft 71, so that the first rotating shaft 71 cannot rotate, the first rotating shaft 71 pushes the first locking rod 716 to move relatively, and the first locking rod 716 no longer locks the first rotating shaft 71. Meanwhile, the rotation of the second deflector rod disc 75 on the second rotating shaft 72 can push the deflector rod bar 76 to move downwards, so that the deflector rod bar 76 pushes the second special-shaped sliding frame 64 and the upper device thereof to move downwards, the bottom of the energy-saving lamp is in contact with the touch control plate 73, the touch control plate 73 is electrified with the energy-saving lamp, the energy-saving lamp is lightened, the photovoltaic panel 513 absorbs the bright light to supply power to the electromagnet 812, the electromagnet 812 generates magnetic force, the first magnet frame 82 and the electromagnet 812 repel each other, and the electromagnet 812 can push the first magnet frame 82 to move downwards. If the power of the energy-saving lamp is strong or moderate, the magnetic force generated by the electromagnet 812 is strong, the downward movement stroke of the first magnet frame 82 is long, the first magnet frame 82 can push the second limiting wedge block 89 to move towards the direction close to the slide rail frame 3, then the first limiting wedge block 89 is clamped on the first magnet frame 82 through the resetting action of the seventh resetting spring 810, and the first magnet frame 82 blocks the slotting sliding frame 63. If the power-saving lamp is weak in power or does not emit light, the magnetic force generated by the electromagnet 812 is weak or not, the downward movement stroke of the first magnet frame 82 is short, the second limiting wedge block 89 does not contact with the first magnet frame 82, the compressed sixth reset spring 87 resets to drive the first magnet frame 82 to move upwards for resetting, and the first magnet frame 82 cannot be blocked by the slot sliding frame 63.

When the slotted disc 718 and the devices thereon do not rotate any more, the compressed second return spring 717 returns to drive the first locking rod 716 to move and return to the opposite direction, and the first locking rod 716 locks the first rotating shaft 71. When the missing gear 55 is meshed with one of the transmission gears 56, the missing gear 55 drives the transmission shaft I53 and the device thereon to rotate through the transmission gear 56, the rotating gear 78 drives the short shaft 77 and the transmission gear 56 to rotate through the chain 79, the transmission gear 56 drives the short rack 710 to move towards the direction close to the slide rail frame 3, and the short rack 710 drives the push plate 712 with the round rod to move towards the direction close to the slide rail frame 3 through the third return spring 713. If the first magnet carriage 82 is not able to block the slotted carriage 63, the push plate with lever 712 pushes the slotted carriage 63 and its upper device toward the direction close to the slide carriage 3, so that the weaker or non-luminous energy saving lamp is located above one of the charging boxes 2. When the first transmission shaft 53 and the upper device rotate, the first deflector rod disk 510 drives the second deflector rod disk 75 and the first rotation shaft 71 to rotate, the first rotation shaft 71 drives the slotted disk 718 to rotate through the clamping rod 716, the slotted disk 718 drives the transmission disk 714 and the second deflector rod disk 75 to rotate through the connecting rod 715, the deflector rod strip 76 is pushed to move downwards, the deflector rod strip 76 pushes the second special-shaped sliding frame 64 and the upper device to move downwards again, when the fixed wedge-shaped frame 93 and the slotted sliding frame 63 are in contact with each other, the fixed wedge-shaped frame 93 pushes the slotted sliding frame 63 and the upper device thereof to move towards the direction close to the sliding rail frame 3, the wedge-shaped clamping block 65 does not clamp the energy-saving lamp any more, and the weaker or non-luminous energy-saving lamp falls into the charging box 2. If the first magnet frame 82 blocks the slot carriage 63, the push plate 712 with the round bar cannot push the slot carriage 63 and the devices thereon, and the long rack 514 and the devices thereon will continue to move closer to the touch pad 73.

When the missing gear 55 is separated from one transmission gear 56, the transmission shaft 53 and the device thereon do not rotate any more, the compressed first return spring 711 resets to drive the short rack 710 to move towards the direction away from the slide rail rack 3, the short rack 710 pulls the push plate with the round rod 712 to move towards the direction close to the slide rail rack 3 through the third return spring 713, and the short rack 710 drives the transmission gear 56 and the short shaft 77 to rotate and reset. When the slotted wedge-shaped frame 88 and the pushing block 611 contact with each other, the pushing block 611 can push the slotted wedge-shaped frame 88 and the upper device thereof to move towards the direction close to the slide rail frame 3, the second limiting wedge-shaped block 89 no longer clamps the first magnet frame 82, and the compressed eighth return spring 811 is reset to drive the slotted wedge-shaped frame 88 and the upper device thereof to move towards the direction far from the slide rail frame 3.

The long rack 514 and the upper device thereof continue to move towards the direction close to the touch pad 73, the compressed return spring 719 resets to drive the poking rod bar 76 to move upwards for resetting, the poking rod bar 76 is separated from the second special-shaped sliding frame 64, the compressed third return spring 610 resets to drive the second special-shaped sliding frame 64 and the upper device thereof to move upwards for resetting, the slotting sliding frame 63 is separated from the fixed wedge-shaped frame 93, and the stretched ninth return spring 92 resets to drive the slotting sliding frame 63 to move towards the direction far away from the sliding rail frame 3 for resetting.

The above operation is repeated and the energy saving lamp is clamped by the rear wedge-shaped clamping block 65. The electromagnet 812 generates a magnetic force, the second rack magnet 83 repels the electromagnet 812, and the electromagnet 812 pushes the second rack magnet 83 to move downward. If the brightness of the energy-saving lamp is strong, the magnetic force generated by the electromagnet 812 is strong, the downward movement stroke of the second magnet frame 83 is long, the second magnet frame 83 can push the second limiting wedge block 89 to move towards the direction close to the slide rail frame 3, then the second limiting wedge block 89 clamps the second magnet frame 83 through the resetting action of the seventh resetting spring 810, and the second magnet frame 83 blocks the slotting slide frame 63. If the power of the energy-saving lamp is moderate, the magnetic force generated by the electromagnet 812 is moderate, the downward movement stroke of the second magnet frame 83 is short, the second limiting wedge block 89 cannot be in contact with the second magnet frame 83, the compressed fifth return spring 86 resets to drive the second magnet frame 83 to move upwards for resetting, and the second magnet frame 83 cannot be blocked by the slotted sliding frame 63. Repeating the above operation, when the second magnet frame 83 blocks the slot sliding frame 63, the push plate 712 with the round bar cannot push the slot sliding frame 63 and the devices thereon, and the long rack 514 and the devices thereon continue to move toward the touch pad 73. If the second magnet rack 83 cannot be blocked by the slot-forming sliding rack 63, the push plate 712 with a round bar pushes the slot-forming sliding rack 63 and the device thereon to move toward the direction close to the sliding rack 3, so that the energy-saving lamp with medium brightness is located above the middle charging box 2. Repeating the above operation, the energy-saving lamp is no longer clamped by the wedge-shaped clamping block 65, and the energy-saving lamp with moderate brightness falls into the middle charging box 2.

The operation is repeated, the second limiting wedge block 89 does not clamp the second magnet frame 83 any more, the long rack 514 and the upper device thereof continue to move towards the direction close to the touch pad 73, the electromagnet 812 generates magnetic force, the third magnet frame 84 and the electromagnet 812 repel each other, the electromagnet 812 pushes the third magnet frame 84 to move downwards, the second limiting wedge block 89 cannot contact with the third magnet frame 84, the compressed fourth reset spring 85 resets to drive the third magnet frame 84 to move upwards for resetting, and the third magnet frame 84 cannot block the slotting sliding frame 63. Repeating the above operation, the push plate 712 with round bar pushes the slotted sliding rack 63 and the upper device thereof to move towards the direction close to the sliding rack 3, so that the energy-saving lamp with stronger brightness is positioned above the other charging box 2. Repeating the above operation, the energy-saving lamp is no longer clamped by the wedge-shaped clamping block 65, and the brighter energy-saving lamp falls into another charging box 2. The operation is repeated, and the purpose of classifying the energy-saving lamps with different brightness is achieved. When the equipment is not used, the servo motor 51 is manually turned off by a worker, so that the equipment stops operating, the worker manually pulls the first limiting wedge block 68 to move upwards, the first limiting wedge block 68 no longer clamps the wedge-shaped clamping block 65, and the stretched first return spring 66 is reset to drive the wedge-shaped clamping block 65 to move and reset relatively.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. The utility model provides a production of electricity-saving lamp is with detection equipment that can classify different luminance lamps which characterized by: the device comprises a bottom plate, a charging box, a slide rail frame, a special-shaped chute supporting frame, a driving mechanism, a clamping and pressing mechanism, a pushing and pressing mechanism, a detection mechanism and a falling mechanism, wherein three charging boxes are fixedly mounted on the top surface of the bottom plate, the slide rail frame is welded on the bottom plate, the special-shaped chute supporting frame is fixedly mounted on the top surface of the bottom plate, the driving mechanism is arranged on the top surface of the bottom plate, the clamping and pressing mechanism is arranged on the driving mechanism, the pushing and pressing mechanism is arranged on the special-shaped chute supporting frame, the detection mechanism is fixedly mounted on the slide rail frame, and the falling mechanism is arranged on the driving mechanism.

2. The detecting device for classifying lamps with different brightness for energy-saving lamp production as claimed in claim 1, wherein: the driving mechanism comprises a servo motor, a special-shaped rotating shaft frame, a first transmission shaft, a second transmission shaft, a gear lack, a transmission gear, a rotating disc, a torsion spring, a first overrunning clutch, a first deflector rod disc, a second overrunning clutch, a first special-shaped sliding frame, a photovoltaic panel, a long rack and a third overrunning clutch, wherein the servo motor is fixedly arranged on the top surface of the bottom plate, the special-shaped rotating shaft frame is also fixedly arranged on the top surface of the bottom plate, an output shaft of the servo motor is rotatably connected with the special-shaped rotating shaft frame, a first transmission shaft is connected with a bearing on the special-shaped rotating shaft frame in an interference fit manner, a second transmission shaft is connected with the bearing on the special-shaped rotating shaft frame in an interference fit manner, the gear lack is welded at one end of the output shaft of the servo motor, the transmission gear is fixedly connected to the first transmission shaft, the second transmission shaft is fixedly connected with the third overrunning clutch, the third overrunning clutch is also fixedly connected with the transmission gear, and the two transmission gears are meshed with the gear lack, the transmission shaft II is welded with a rotating disc, a torsion spring is connected between the rotating disc and the special-shaped rotating shaft frame, the transmission shaft II is provided with a first overrunning clutch, the bottom of the first overrunning clutch is provided with a first driving lever disc, a second overrunning clutch is arranged below the transmission shaft, the first driving lever disc is welded on the second overrunning clutch in the same way, the sliding rail frame is connected with a first three-different sliding frame in a sliding mode, two adjacent special-shaped sliding frames are fixedly connected with each other, the first special-shaped sliding frame is provided with a photovoltaic plate, two adjacent photovoltaic plates are fixedly connected with each other, a long rack is welded on the first special-shaped sliding frame, two adjacent long racks are fixedly connected with each other, and the long rack is meshed with a transmission gear.

3. The detecting device for classifying lamps with different brightness for energy-saving lamp production as claimed in claim 2, wherein: the clamping and downward pressing mechanism comprises a wedge-shaped frame I, a wedge-shaped frame II, a slotting sliding frame, a special-shaped sliding frame II, a wedge-shaped clamping block, a first reset spring, a lower pressing plate, a limiting wedge-shaped block I, a second reset spring, a third return spring and a pushing block, wherein the top surface of the bottom plate is welded with the wedge-shaped frame II, the wedge-shaped frame I is welded on the sliding rail frame, the special-shaped sliding frame I is connected with a pair of slotting sliding frames in an upward sliding mode, the slotting sliding frame II is connected with the special-shaped sliding frame in a lifting mode, the wedge-shaped clamping block is connected on the special-shaped sliding frame II in an upward sliding mode, one wedge-shaped clamping block is mutually contacted with the wedge-shaped frame I, the other wedge-shaped clamping block is mutually contacted with the wedge-shaped frame II, the wedge-shaped clamping block is connected with a first reset spring in a linkage mode, one end of the first reset spring is connected with the special-shaped sliding frame II, the wedge-shaped clamping blocks at three positions are welded with the lower pressing plates, the special-shaped sliding frame II is connected with the limiting wedge-shaped sliding frame I in an upward sliding mode, the first limiting wedge-shaped block is connected with a second reset spring, one end of the second reset spring is fixedly connected with the second special-shaped sliding frame, the second special-shaped sliding frame is connected with a pair of third return springs, one end of each third return spring is fixedly connected with the corresponding slotting sliding frame, and the first special-shaped sliding frame is welded with a pushing block.

4. The detecting device for classifying lamps with different brightness for energy-saving lamp production as claimed in claim 3, wherein: the pushing and pressing mechanism comprises a first rotating shaft, a second rotating shaft, a touch control plate, a special-shaped sliding bar rack, a second deflector rod disc, a deflector rod bar, a short shaft, a rotating gear, a chain, a short rack, a first homing spring, a push plate with a round bar, a third homing spring, a transmission disc, a connecting rod, a clamping rod, a second homing spring, a slotted disc and a homing spring, wherein the first rotating shaft is rotatably connected to the special-shaped sliding groove rack, the second rotating shaft is rotatably connected to the special-shaped sliding groove rack, the touch control plate is fixedly installed on the top surface of the bottom plate, the special-shaped sliding bar rack is welded to the special-shaped sliding groove rack, the second deflector rod disc is distributed on the second rotating shaft, the second deflector rod disc is welded on the first rotating shaft, the second deflector rod disc and the first deflector rod disc are mutually contacted, the three deflector rod bars are slidably connected to the special-shaped sliding bar rack, the deflector rod bar disc and the second deflector rod disc are mutually contacted, the third short shaft is rotatably connected to the special-shaped sliding groove rack, the transmission gear is fixedly connected to the upper portion of the short shaft in the same mode, the rotating gear is fixedly connected to the lower portion of the short shaft in the same mode, a chain is connected between the rotating gears in a transmission mode, three short rack racks are connected to the special-shaped chute supporting frame in a sliding mode, a first homing spring is connected to the short rack racks in the connecting mode, one end of the first homing spring is connected with the special-shaped chute supporting frame in the connecting mode, a push plate with a round rod is connected to the short rack racks in the sliding mode, a third reset spring is connected to the push plate with the round rod in the connecting mode, one end of the third reset spring is fixedly connected with the short rack, a transmission disc is welded to the two ends of the rotating shaft, a connecting rod is connected to the transmission disc in the rotating mode, a slotting disc is connected to the connecting rod in the rotating shaft in the sliding mode in a triangular connection mode, the clamping rod is clamped into a clamping groove of the rotating shaft, a second homing spring is connected between the clamping rod and the shifting rod, and a return spring is connected between the special-shaped rack and the shifting rod.

5. The detecting device for classifying lamps with different brightness for energy-saving lamp production as claimed in claim 4, wherein: the detection mechanism comprises a special-shaped slotting support frame, a first magnet frame, a second magnet frame, a third magnet frame, a fourth reset spring, a fifth reset spring, a sixth reset spring, a slotting wedge-shaped frame, a second limiting wedge-shaped block, a seventh reset spring, an eighth reset spring and an electromagnet, the special-shaped slotting support frame is fixedly arranged on the slide rail frame, the first magnet frame is connected with the special-shaped slotting support frame in a sliding mode, the second magnet frame is connected with the special-shaped slotting support frame in a sliding mode, the third magnet frame is also connected with the special-shaped slotting support frame in a sliding mode, the fourth reset spring is connected with the third magnet frame, one end of the fourth reset spring is connected with the special-shaped slotting support frame, the fifth reset spring is fixedly connected between the second magnet frame and the special-shaped slotting support frame, the sixth reset spring is connected with the first magnet frame in a sliding mode, one end of the sixth reset spring is connected with the special-shaped slotting support frame in a sliding mode, the photovoltaic panel is characterized in that the slotting wedge-shaped frame is connected with three limiting wedge-shaped blocks II in a sliding mode, the limiting wedge-shaped blocks II are fixedly connected with seventh reset springs, one ends of the seventh reset springs are fixedly connected with the slotting wedge-shaped frame, two pairs of eighth reset springs are connected between the slotting wedge-shaped frame and the special-shaped slotting support frame, and the photovoltaic panel is provided with an electromagnet.

6. The detecting device for classifying lamps with different brightness for energy-saving lamp production as claimed in claim 5, wherein: the falling mechanism comprises a slotting four-corner sliding frame, a ninth reset spring and a fixed wedge-shaped frame, the slotting four-corner sliding frame is symmetrically and slidably connected to the special-shaped sliding frame I, the slotting four-corner sliding frame is slidably connected with the slotting sliding frame, a pair of ninth reset springs is connected between the two corresponding slotting sliding frames, and the fixed wedge-shaped frame is symmetrically arranged on the charging box.

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